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Group 1 - The traditional energy system is rapidly transitioning to a new energy system dominated by renewable energy, necessitating a green and low-carbon transformation of energy to meet national economic development goals [1] - Artificial Intelligence (AI) is identified as a key technology for enhancing energy management efficiency, with applications already being implemented in various domestic power plants, coal mines, and oil fields [1] - AI can significantly reduce energy costs, ensure energy security, and promote technological advancements in the energy sector [1] Group 2 - AI large models are considered crucial for the next generation of artificial intelligence, improving decision-making quality and efficiency in industrial management [2] - The "AI Purple Collar" model developed by Kunlun Data has been successfully applied in nuclear power plants, enabling real-time data response and autonomous maintenance decision-making [2] - AI can enhance the management of renewable energy generation bases by intelligently scheduling energy storage systems to address short-term fluctuations in power supply [2] Group 3 - New energy storage technologies are becoming vital indicators for the transformation of energy structures, playing significant roles in generation, transmission, and consumption [3] - Energy storage technologies can address the intermittency and unpredictability of renewable energy generation, stabilize grid frequency, and balance supply and demand [3] - There is an urgent need to develop long-duration, large-scale energy storage technologies, as current systems primarily rely on electrochemical storage, which has limitations in efficiency and environmental impact [3] Group 4 - Innovative energy storage solutions, such as lava thermal energy storage and solar calcium cycle power generation, are being researched to improve energy conversion efficiency and environmental safety [3][4] - Carbon dioxide energy storage technology is also being developed, which can store energy in the form of CO2 internal energy and pressure potential, providing high-density and efficient energy storage [5] Group 5 - Hydrogen energy is recognized as a key pathway for decarbonization, with liquid hydrogen offering superior economic performance compared to gaseous hydrogen for large-scale applications [6] - The density of liquid hydrogen is significantly higher than that of gaseous hydrogen, making it a critical economic indicator for hydrogen energy applications [6] - The development of liquid hydrogen refueling stations is expected to enhance refueling efficiency, reduce costs, and improve land utilization [7]